Legal claims defining the scope of protection. Each claim is shown in both the original legal language and a plain English translation.
1. An intelligent lamp holder for mounting a lamp, the intelligent lamp holder and the lamp being controlled by an external ultrasonic device which transmits ultrasonic signals, the intelligent lamp holder comprising: a microprocessor; a memory connected with and controlled by the microprocessor for storing a plurality of preset instructions; an acoustic reception and transmission element connected with the external ultrasonic device for receiving the ultrasonic signals, and the acoustic reception and transmission element converting the ultrasonic signals into digital signals, the acoustic reception and transmission element proceeding with a far field noise suppression processing on the received ultrasonic signals, the acoustic reception and transmission element collecting the ultrasonic signals and proceeding with a noise reduction disposition on the ultrasonic signals; a sound recognition module connected with and controlled by the microprocessor, and the sound recognition module being connected with the acoustic reception and transmission element, the digital signals being transmitted to the sound recognition module, the sound recognition module receiving and recognizing the digital signals to generate execution instructions; a light modulation module connected with and controlled by the microprocessor for controlling on-off statuses of the lamp and a brightness modulation of the lamp according to different execution instructions; a sensing module connected with and controlled by the microprocessor for detecting and collecting environmental information, and transmitting the detected environmental information to the microprocessor for analyzing the detected environmental information, so that the on-off statuses of the lamp and the brightness modulation of the lamp are controlled according to different environmental information; an internet of things transmission protocol module connected with and controlled by the microprocessor; a wireless communication module connected with the internet of things transmission protocol module and the microprocessor, the intelligent lamp holder being connected with an intelligent terminal by virtue of the wireless communication module, the wireless communication module being used for receiving operation instructions sent from the intelligent terminal and the operation instructions being transmitted to the internet of things transmission protocol module to proceed with instruction recognition, the wireless communication module being used for sending status information of the on-off statuses and a brightness of the lamp to the intelligent terminal; and an instruction match and situation application module being used for comparing the operation instructions recognized by the internet of things transmission protocol module with the plurality of the preset instructions in the memory, and the instruction match and situation application module choosing the corresponding operation instruction to execute.
Lighting control technology. This invention addresses the need for an intelligent lamp holder capable of receiving commands from external sources and adapting its lighting behavior based on environmental factors and user input. The intelligent lamp holder includes a microprocessor and memory storing preset instructions. An acoustic reception and transmission element receives and processes external ultrasonic signals, performing far-field noise suppression and noise reduction on these signals before converting them into digital data. A sound recognition module processes these digital signals and generates execution instructions. A light modulation module controls the lamp's on/off status and brightness based on the execution instructions. A sensing module collects environmental information, which is analyzed by the microprocessor to further influence the lamp's operation. The system also incorporates an Internet of Things (IoT) transmission protocol module and a wireless communication module. This allows the lamp holder to connect to an intelligent terminal wirelessly, receiving operation instructions from it. These instructions are processed through the IoT module for recognition. The wireless module also transmits the lamp's status (on/off and brightness) back to the intelligent terminal. Finally, an instruction match and situation application module compares recognized operation instructions with the stored preset instructions in memory, selecting and executing the appropriate operation.
2. The intelligent lamp holder as claimed in claim 1 , wherein the sensing module is a radar sensing module, and the sensing module is a short range pulse radar.
The intelligent lamp holder is designed for smart lighting systems, addressing the need for enhanced safety, energy efficiency, and user convenience in residential and commercial environments. The device integrates a sensing module, specifically a short-range pulse radar, to detect the presence and movement of individuals within its detection range. This radar-based sensing technology enables precise and reliable human detection without relying on optical or infrared sensors, which can be affected by lighting conditions or obstructions. The short-range pulse radar operates by emitting short electromagnetic pulses and analyzing the reflected signals to determine the presence, distance, and movement of people. This functionality allows the lamp holder to automatically adjust lighting conditions based on occupancy, reducing energy consumption and improving user experience. The intelligent lamp holder can be installed in various lighting fixtures, such as ceiling lamps, wall lamps, or desk lamps, and can communicate with other smart devices or systems via wireless or wired connections. The radar sensing module ensures accurate detection even in low-light or dark environments, making it suitable for applications where traditional sensors may fail. The device may also include additional features, such as motion tracking, ambient light sensing, and integration with voice assistants or smart home platforms, to provide a comprehensive smart lighting solution.
3. The intelligent lamp holder as claimed in claim 1 , wherein the light modulation module is a reverse pulse width light modulator.
The intelligent lamp holder is designed for controlling and modulating light output in lighting systems, addressing the need for energy-efficient and adaptable lighting solutions. The device includes a light modulation module that dynamically adjusts light intensity and characteristics to optimize energy usage and user experience. Specifically, the light modulation module is a reverse pulse width light modulator, which regulates light output by varying the duration of off-periods within a fixed cycle, rather than adjusting the on-periods. This approach allows for precise control over light intensity while minimizing power consumption and reducing flicker. The intelligent lamp holder integrates with various light sources, such as LEDs, and can be controlled via wired or wireless interfaces, enabling seamless integration into smart lighting networks. The reverse pulse width modulation technique ensures smooth dimming and consistent light quality, making it suitable for applications requiring precise light control, such as residential, commercial, and industrial settings. The system may also include sensors and communication modules to enable automated adjustments based on environmental conditions or user preferences.
4. The intelligent lamp holder as claimed in claim 1 , further comprising an intelligence module disposed in the microprocessor, the intelligence module having an artificial intelligence function and being connected with an internet of things transmission protocol module for transmitting data to the internet of things transmission protocol module.
The intelligent lamp holder is designed for smart lighting systems, addressing the need for enhanced connectivity and automation in lighting control. The device integrates a microprocessor that manages power supply and communication functions, ensuring stable operation and data transmission. A key feature is the intelligence module within the microprocessor, which incorporates artificial intelligence (AI) capabilities. This module processes data and interacts with an Internet of Things (IoT) transmission protocol module, enabling seamless data exchange with external networks. The IoT module supports standardized protocols for wireless or wired communication, allowing the lamp holder to connect with other smart devices or cloud-based systems. The AI function enables adaptive learning, such as adjusting brightness or color temperature based on user preferences or environmental conditions. This integration enhances energy efficiency and user convenience by automating lighting control and providing remote monitoring capabilities. The system can be deployed in residential, commercial, or industrial settings, offering scalable and intelligent lighting solutions.
5. The intelligent lamp holder as claimed in claim 4 , wherein the internet of things transmission protocol module uses a narrow band-internet of things technology.
The intelligent lamp holder is designed for smart lighting systems, addressing the need for efficient, low-power wireless communication in connected lighting environments. The device integrates an internet of things (IoT) transmission protocol module that employs narrowband IoT (NB-IoT) technology. NB-IoT is a low-power, wide-area network (LPWAN) protocol optimized for IoT applications, offering extended range, deep indoor penetration, and energy efficiency. This module enables the lamp holder to communicate with external devices, such as smart home controllers or cloud servers, using minimal power consumption. The lamp holder may also include a power supply circuit, a control circuit, and a communication interface to facilitate data exchange and remote management of lighting functions. By leveraging NB-IoT, the device ensures reliable connectivity in challenging environments, such as basements or thick-walled buildings, while maintaining long battery life. This technology is particularly useful for large-scale smart lighting deployments where low maintenance and robust communication are critical. The intelligent lamp holder may further support additional features, such as dimming, scheduling, and remote monitoring, enhancing its functionality in smart home and industrial automation applications.
6. The intelligent lamp holder as claimed in claim 4 , wherein the sensing module is connected with the microprocessor for detecting breathing variations of a chest of a user to confirm a current position of the user, the sensing module transmits the breathing variations of the user to the intelligence module of the microprocessor for analyzing the breathing variations of the user according to breathing status information of the user, so that the on-off statuses of the lamp and the brightness modulation of the lamp are controlled according to different breathing conditions of the user.
An intelligent lamp holder system monitors a user's breathing patterns to adjust lighting conditions automatically. The system includes a sensing module that detects variations in the user's chest movements, such as breathing rate and depth, to determine the user's position and activity state. The sensing module transmits this data to a microprocessor equipped with an intelligence module, which analyzes the breathing patterns based on stored user-specific breathing status information. The microprocessor then controls the lamp's on-off status and brightness modulation in response to the user's breathing conditions. For example, if the user is asleep, the lamp may dim or turn off, while irregular breathing patterns may trigger a different lighting response. The system aims to enhance user comfort and safety by dynamically adapting lighting based on physiological signals, eliminating the need for manual adjustments. The sensing module may use non-invasive techniques, such as motion or pressure sensors, to capture breathing variations without direct contact. The intelligence module processes the data to distinguish between different breathing states, ensuring accurate lighting control. This approach integrates health monitoring with smart lighting to create an adaptive environment tailored to the user's needs.
7. The intelligent lamp holder as claimed in claim 1 , wherein a frequency range of the ultrasonic signals is between 15 KHz and 40 KHz.
An intelligent lamp holder is designed to enhance lighting control and user interaction through ultrasonic signal detection. The device integrates ultrasonic sensors to detect signals within a frequency range of 15 KHz to 40 KHz, enabling precise control of lighting functions. The ultrasonic sensors allow the lamp holder to respond to specific sound frequencies, facilitating hands-free operation or interaction with other devices. This frequency range is optimized for reliable detection while minimizing interference from ambient noise. The intelligent lamp holder may also include additional features such as wireless communication, motion detection, or smart home integration, depending on its configuration. The ultrasonic detection capability enhances user convenience by enabling gesture-based or sound-triggered lighting adjustments, improving accessibility and automation in smart lighting systems. The system ensures accurate signal interpretation within the specified frequency range, ensuring consistent performance in various environments. This technology addresses the need for intuitive, non-contact lighting control in modern smart home applications.
8. The intelligent lamp holder as claimed in claim 1 , wherein the acoustic reception and transmission element is an ultrasonic reception and transmission element.
The invention relates to an intelligent lamp holder designed to enhance lighting systems with acoustic communication capabilities. The device addresses the need for wireless data transmission in lighting fixtures, particularly in environments where traditional wireless signals (e.g., Wi-Fi, Bluetooth) may be unreliable or interfere with other systems. The intelligent lamp holder integrates an acoustic reception and transmission element, which enables data exchange via sound waves, overcoming signal interference issues in dense or shielded environments. The lamp holder includes a housing that supports a light source and contains electronic components for processing and transmitting data. The acoustic element, specifically an ultrasonic reception and transmission module, converts electrical signals into high-frequency sound waves for communication. This allows the lamp holder to transmit and receive data without relying on electromagnetic signals, making it suitable for industrial, medical, or secure facilities where wireless interference is a concern. The ultrasonic module operates at frequencies beyond human hearing, ensuring unobtrusive operation while maintaining high data transfer rates. The system may also include a controller to manage data transmission, ensuring compatibility with existing lighting infrastructure. The ultrasonic communication can be used for tasks such as remote monitoring, control, or synchronization of multiple lighting units. The design ensures seamless integration into standard lamp fixtures while providing robust, interference-free data transmission.
9. An intelligent lamp holder for mounting and controlling a lamp, comprising: a microprocessor; a memory connected with and controlled by the microprocessor for storing a plurality of preset instructions; an acoustic reception and transmission element for receiving sound signals inputted into the intelligent lamp holder, and the sound signals being converted into analog signals and then the analog signals continuing being transmitted; a sound recognition module connected with and controlled by the microprocessor, and the sound recognition module being connected with the acoustic reception and transmission element for receiving and recognizing the analog signals to generate execution instructions; an instruction match and situation application module connected with and controlled by the microprocessor for comparing the execution instructions with the plurality of the preset instructions in the memory, and the instruction match and situation application module choosing at least one execution instruction to execute; a light modulation module connected with and controlled by the microprocessor for controlling on-off statuses of the lamp and a brightness modulation of the lamp according to different execution instructions; a sensing module connected with and controlled by the microprocessor for detecting and collecting environmental information, and transmitting the detected environmental information to the microprocessor for analyzing the detected environmental information, so that the on-off statuses of the lamp and the brightness modulation of the lamp are controlled according to different environmental information; an internet of things transmission protocol module connected with and controlled by the microprocessor; and a wireless communication module connected with the internet of things transmission protocol module and the microprocessor, the intelligent lamp holder being connected with an intelligent terminal by virtue of the wireless communication module, the wireless communication module being used for receiving operation instructions sent from the intelligent terminal and the operation instructions being transmitted to the internet of things transmission protocol module to process instruction recognition, the wireless communication module being used for sending own status information of the on-off statuses and a brightness of the lamp to the intelligent terminal; wherein the instruction match and situation application module is used for comparing the operation instructions recognized by the internet of things transmission protocol module with the plurality of the preset instructions in the memory, and the instruction match and situation application module chooses the corresponding operation instruction to execute.
An intelligent lamp holder is designed to mount and control a lamp using voice commands, environmental sensing, and wireless communication. The device includes a microprocessor that manages various modules, including a sound recognition module for converting voice commands into executable instructions. These instructions are compared against preset commands stored in memory, allowing the lamp holder to adjust the lamp's on-off status and brightness based on recognized voice inputs. Additionally, a sensing module detects environmental conditions, such as ambient light or motion, and adjusts the lamp's settings accordingly. The lamp holder also features wireless communication capabilities, enabling connection to a smart terminal (e.g., a smartphone) via an IoT transmission protocol. Users can send operation commands remotely, and the device transmits its status (e.g., lamp on/off, brightness levels) back to the terminal. The system ensures seamless integration of voice control, environmental responsiveness, and remote management for enhanced lighting automation.
10. The intelligent lamp holder as claimed in claim 9 , wherein the light modulation module is a modulator which is based on pulse width modulation.
The intelligent lamp holder is a lighting control device designed to enhance energy efficiency and user convenience in lighting systems. The device addresses the problem of inefficient lighting control, where traditional lamp holders lack advanced modulation techniques to optimize energy consumption and adapt to varying lighting needs. The intelligent lamp holder includes a light modulation module that dynamically adjusts the light output based on user preferences or environmental conditions. Specifically, the light modulation module is a pulse width modulation (PWM) modulator, which regulates the light intensity by varying the duty cycle of the electrical signal supplied to the lamp. PWM is a highly efficient modulation technique that minimizes energy waste by precisely controlling the power delivered to the lamp, ensuring optimal brightness while reducing power consumption. The device may also incorporate additional features such as wireless communication, sensors for ambient light detection, and integration with smart home systems. These features enable automated lighting adjustments, remote control, and seamless integration with other smart devices. The intelligent lamp holder thus provides a versatile and energy-efficient solution for modern lighting applications.
11. The intelligent lamp holder as claimed in claim 9 , wherein the sensing module is a passive infrared sensor, the sensing module is connected with and controlled by the microprocessor for detecting activities of a user and generating turn-on and turn-off commands, the instruction match and situation application module is used for comparing the turn-on and turn-off commands generated by the sensing module with the plurality of the preset instructions in the memory, and the instruction match and situation application module chooses the turn-on command or the turn-off command to execute.
This invention relates to an intelligent lamp holder designed to automate lighting control based on user activity. The device addresses the problem of manual lighting control, which is inconvenient and energy-inefficient. The intelligent lamp holder integrates a passive infrared (PIR) sensor to detect user movement and generate turn-on and turn-off commands. A microprocessor controls the sensor and processes the commands. The system includes a memory storing preset instructions and an instruction match and situation application module that compares the sensor-generated commands with the stored instructions. Based on this comparison, the module selects and executes the appropriate turn-on or turn-off command to control the lamp. This automation ensures energy savings and user convenience by eliminating the need for manual intervention. The lamp holder may also include additional features such as wireless communication for remote control or integration with smart home systems. The passive infrared sensor operates passively, requiring no external power for detection, further enhancing energy efficiency. The system dynamically adapts to user presence, optimizing lighting conditions without manual adjustments.
12. The intelligent lamp holder as claimed in claim 9 , wherein the instruction match and situation application module and the internet of things transmission protocol module are comprised in an integrated module.
The intelligent lamp holder is designed for smart lighting systems, addressing the need for efficient, modular, and adaptable control of lighting fixtures. The device integrates multiple functional modules to enhance performance and reduce complexity. One key module is the instruction match and situation application module, which processes and matches incoming control instructions with predefined scenarios or conditions, enabling context-aware lighting adjustments. Another critical component is the internet of things (IoT) transmission protocol module, which facilitates seamless communication between the lamp holder and external devices or networks using standardized IoT protocols. These modules are combined into a single integrated module, streamlining the system architecture and improving reliability. The integrated module ensures that the lamp holder can dynamically respond to user commands, environmental changes, or predefined schedules while maintaining efficient data transmission. This design simplifies installation, reduces hardware requirements, and enhances the overall functionality of smart lighting solutions. The intelligent lamp holder thus provides a versatile and scalable platform for modern lighting control systems.
13. The intelligent lamp holder as claimed in claim 9 , wherein the acoustic reception and transmission element is at least one microphone array.
The intelligent lamp holder is designed for smart lighting systems, addressing the need for integrated audio functionality in lighting fixtures. The device combines traditional lamp holder features with advanced acoustic capabilities, enabling voice control, audio monitoring, and environmental sound detection. The key innovation involves an acoustic reception and transmission element, specifically a microphone array, which enhances audio capture and directionality. This array allows for precise sound localization, noise suppression, and improved voice command recognition. The microphone array is integrated into the lamp holder structure, ensuring seamless integration with existing lighting infrastructure while providing high-quality audio input for smart home systems. The design supports multi-directional sound pickup, making it suitable for various applications such as voice-assisted lighting control, home security monitoring, and ambient sound analysis. The intelligent lamp holder thus bridges the gap between lighting and audio technologies, offering a compact, multifunctional solution for modern smart environments.
14. The intelligent lamp holder as claimed in claim 9 , wherein the acoustic reception and transmission element is at least one microphone.
The intelligent lamp holder is a lighting fixture with integrated acoustic and communication capabilities, designed to enhance user interaction and environmental monitoring. The device addresses the need for smart lighting systems that can also function as audio input/output devices, eliminating the need for separate microphones or speakers in a room. The lamp holder includes a housing with a light source, such as an LED, and an acoustic reception and transmission element, which in this case is at least one microphone. The microphone enables the lamp holder to capture audio signals from the environment, allowing for voice commands, sound detection, or ambient noise monitoring. The device may also include wireless communication modules to transmit captured audio data to external systems, such as smart home hubs or cloud servers, for further processing. Additionally, the lamp holder may feature processing circuitry to analyze audio signals locally, enabling functions like voice recognition or sound-based automation triggers. The integration of acoustic elements into a lamp holder provides a compact, multi-functional solution for smart lighting and audio applications.
Unknown
January 7, 2020
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.